Keyphrases
Mathematical Model
100%
Sulfide
100%
Electrochemically Active
100%
Sulfide-oxidizing Bacteria
100%
Thermodynamics
50%
Microbes
50%
Metabolism
50%
Metabolic Activity
50%
Oxygen Consumption
50%
Nernst-Planck
50%
Ion Diffusion
50%
Electrical Conduction
50%
Spatial Distance
50%
Ion Migration
50%
Sulfur-oxidizing Bacteria
50%
Deep-sea Sediment
50%
Controlling Mechanism
50%
Low Growth Rate
50%
Electronic Conduction
50%
Biomass Growth
50%
Reactive Zone
50%
Substrate Limitation
50%
Substrate Affinity
50%
Ohm's Law
50%
Filamentous Bacteria
50%
Engineering
Mathematical Model
100%
Limitations
100%
Simulation Result
33%
Observed Data
33%
Controlling Mechanism
33%
Low Growth Rate
33%
Metabolic Activity
33%
Filamentous Bacteria
33%
Floors
33%
Oxygen Consumption
33%
Ohms Law
33%
Immunology and Microbiology
Conductance
100%
Sulfide Oxidizing Bacterium
100%
Surface Property
50%
Microorganism
50%
Oxygen Consumption
50%
Sulfur Oxidizing Bacterium
50%
Electric Conductivity
50%
Earth and Planetary Sciences
Sulfide Oxidizing Bacteria
100%
Mathematical Model
100%
Ocean Sediment
50%
Conduction Electron
50%
Ohms Law
50%
Oxygen Consumption
50%